CN110926095A

CN110926095A - High-temperature and high-humidity resistant condensation and evaporation device

Info

Publication number: CN110926095A
Application number: CN201911246260.6A
Authority: CN
Inventors: 李兵强; 刘珊珊; 朱磊
Original assignee: Jiangsu Xingxing Home Appliance Technology Co Ltd
Current assignee: Jiangsu Xingxing Home Appliance Technology Co Ltd
Priority date: 2019-12-08
Filing date: 2019-12-08
Publication date: 2020-03-27

Abstract

The invention discloses a high-temperature and high-humidity resistant condensation evaporation device, which comprises a compressor, a condensation device, an expansion valve and an evaporator, wherein the compressor, the condensation device, the expansion valve and the evaporator are sequentially connected in a circulating manner through refrigerant pipes to form two independent cooling circulation systems; the condensing device consists of a condenser and a cooling tower; the cooling tower is composed of a closed hollow metal pipe and a radiating fin; a small amount of cooling liquid is filled in the closed hollow metal tube; the pipeline in the condenser is divided into an upper layer and a lower layer which are parallel, the pipeline of the upper layer and the pipeline of the lower layer are arranged in an S-shaped roundabout way, and each layer of pipeline can be respectively connected with a compressor; the pipeline inside the evaporator is divided into two sets which are arranged in parallel, each set of pipeline is arranged in an S-shaped roundabout mode, and the flow direction of a refrigerant in the pipeline inside the evaporator is opposite to the direction of air flow in the cold air channel so as to ensure that the evaporator adopts countercurrent heat exchange; the invention solves the problems of low refrigeration efficiency and poor high temperature and high humidity resistance of the display cabinet in the prior art.

Description

High-temperature and high-humidity resistant condensation and evaporation device

Technical Field

The invention relates to the technical field of refrigeration equipment, in particular to a high-temperature and high-humidity resistant condensation and evaporation device.

Background

Most of showcases for refrigerated goods in the market at present adopt a rotor type or piston compressor, a refrigerant selects R404A, a single-system cooling circulation mode is adopted, the set temperature is difficult to reach, and in the process of practical application, if a high-temperature and high-humidity environment occurs, the compressor in the showcase is easy to have high-pressure protection, so that the compressor is shut down, the stored food is deteriorated, the technical problems of poor cooling effect, low and uneven cooling speed of goods and low cooling efficiency exist.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a high-temperature and high-humidity resistant condensation and evaporation device, which solves the problems of low refrigeration efficiency, low and uneven cooling speed of articles of the prior showcase.

In order to achieve the purpose, the invention provides the following technical scheme:

a high-temperature and high-humidity resistant condensation evaporation device comprises an upper shell and a lower shell, wherein a display section is arranged in the upper shell, a working section is arranged in the lower shell, an air cooling channel is arranged between a display back plate of the display section and a shell back plate of the upper shell, a hollow channel is arranged between a display top plate of the display section and a shell top plate of the upper shell, hollow object placing partition plates are horizontally arranged on the display back plate at intervals, and a hollow object placing bottom plate is arranged at the bottom of the display section; the upper surface of the hollow storage bottom plate is uniformly provided with water leakage holes; a water collecting opening is formed in one corner of the lower bottom surface of the outer side of the hollow storage bottom plate, and the horizontal height of the corner with the water collecting opening is lower than the horizontal heights of the other three corners, so that accumulated water can be collected conveniently; the lower surfaces of the hollow storage partition plate and the display top plate are uniformly provided with cold air notches for blowing cold air; the lower surfaces of the hollow storage partition plate and the display top plate are both connected with cold air blocking pieces through rotating shafts; the outer edges of the cold air separation blades in each row are rotatably connected in series through a linkage pull rod, an adjusting handle is arranged at the end part of the linkage pull rod, and the linkage pull rod can realize that the cold air separation blades in the same row are opened and closed at the same time to close a cold air notch and adjust the wind direction of cold air; a return air channel is arranged between the upper shell and the lower shell, a cold air suction hole is formed at the joint of the front surfaces of the upper shell and the lower shell, and the opening of the cold air suction hole faces the inside of the display section; the air return channel, the hollow channel and the hollow object placing partition plate are all internally and fixedly provided with a cold air fan; the cold air suction hole, the return air channel, the hollow storage partition plate and the cold air notch are communicated with the cold air channel; an evaporator is arranged in the cold air channel and close to the return air channel; lamp belts are arranged on the display back plate which is separated by the display top plate, the hollow object placing partition plate and the hollow object placing bottom plate; the inside of the lower shell is provided with a drawer type water storage tank, a condensing device, two symmetrically arranged heat radiating fans, two symmetrically arranged compressors and two expansion valves; the front and back shells of the lower shell are uniformly provided with heat dissipation holes for air to enter and exit; the end part of the drawer type water storage tank is parallel to the front edge shell of the lower shell, a handle is arranged at the end part of the drawer type water storage tank, and the drawer type water storage tank is communicated with the water collecting opening through a guide pipe; the heat radiation fan is arranged between the compressor and the condensing device; airflow windows are arranged on the front surface and the rear surface of the condensing device, and the airflow windows are circular windows with the diameter larger than that of the fan blades of the cooling fan; the condensing device consists of a condenser and a cooling tower; the pipeline in the condenser is divided into an upper layer and a lower layer which are parallel, the upper layer and the lower layer of pipelines are arranged in an S-shaped roundabout mode, and each layer of pipelines can be respectively connected with one compressor; the cooling tower is composed of a closed hollow metal tube and a radiating fin; two thirds of cooling liquid is filled in the closed hollow metal tube, and one third of the hollow metal tube at the upper part extends out of the upper surface of the condensing device; the pipeline in the evaporator is divided into two sets which are arranged in parallel, each set of pipeline is arranged in an S-shaped roundabout manner, and the flow direction of a refrigerant in the pipeline in the evaporator is opposite to the direction of air flow in the cold air channel so as to ensure that the evaporator adopts countercurrent heat exchange; the compressor, the condensing device, the expansion valve and the evaporator are sequentially connected in a circulating manner through refrigerant pipes, and two independent cooling circulating systems are formed by utilizing the connection.

The compressor presses the high-temperature refrigerant sucked from the evaporator into the condenser, the airflow flows in from the heat dissipation holes on the front surface of the lower shell under the drive of the heat dissipation fan, flows through the condenser, the airflow absorbs the heat of the refrigerant in the condenser to heat, the cooled refrigerant flows through the expansion valve and then is pressed into the evaporator, the air in the display area is blown to the evaporator through the air return channel under the drive of the cold air fan, the airflow exchanges heat at the evaporator, the cooled cold air is sent into the cold air channel and blown out from the cold air notch through the cold air fan, and the heated refrigerant absorbing the heat of the air is sucked into the compressor again so as to form a refrigeration cycle; the high-temperature air flow absorbing the heat of the refrigerant in the condenser flows through the cooling tower, the cooling liquid in the cooling tower absorbs the heat for vaporization, the cooled air flow is blown to the compressor through the cooling fan and finally flows out of the heat dissipation holes in the back of the lower shell, and therefore the temperature of the working environment of the compressor is reduced.

The invention provides a high-temperature and high-humidity resistant condensation and evaporation device, which has the following beneficial effects:

(1) according to the invention, through arranging the two compressors, the two cooling fans, the two expansion valves, the airflow window, the condensing device and the evaporator, the convection of air can be accelerated through the arrangement of the two fans, and a better cooling effect of a working area and the condensing device is ensured; two sets of cooling circulation systems are constructed, so that the effect of rapid cooling is achieved; the S-shaped circuitous arrangement of the condensing unit and the internal pipeline of the evaporator saves the installation space; the problems that the single-system cooling circulation system is overloaded, is easy to stop and is difficult to reach the set temperature under the high-temperature and high-humidity condition are solved;

(2) the cooling tower, the closed hollow metal pipe, the radiating fins and the airflow window are arranged, so that the air cooling device has the effect of further and quickly cooling air, solves the problem of overhigh temperature of the working environment of the compressor, and further avoids the problem of overload shutdown of the compressor under the high-temperature and high-humidity condition;

(3) the invention has the advantages that the cooling air suction hole, the cooling air channel, the hollow object-placing partition plate, the cooling air notch, the cooling air baffle plate, the linkage pull rod and the adjusting handle are arranged, so that the cooling flow direction and the size can be adjusted, and then the opening direction of the cooling air suction hole is matched with the blowing direction of cooling air, so that more cooling air circulation effects can be brought, and the problem that the single system cooling circulation mode in the prior art is required to reach the set temperature is further solved;

(4) the drawer type water storage tank is provided with the hollow storage bottom plate, the water leakage hole, the water collecting opening and the drawer type water storage tank, so that the function of collecting accumulated water in time is achieved, and the problems that the accumulated water is inconvenient to check and clean are solved.

Drawings

Fig. 1 is a side sectional view of the overall structure of the present invention.

Fig. 2 is a schematic view of the installation relationship of the condensing unit, the heat dissipation fan and the compressor according to the present invention.

FIG. 3 is a side sectional view of the overall structure of the condensing unit of the present invention.

Fig. 4 is a schematic front view of the condenser of the present invention.

FIG. 5 is a schematic side view of a condenser according to the present invention.

FIG. 6 is a schematic diagram of the front structure of the cooling tower of the present invention.

FIG. 7 is a schematic side view of a cooling tower according to the present invention.

FIG. 8 is a schematic view of the hollow storage partition, cold air slot, cold air blocking piece, linkage rod, and adjustment handle of the present invention after the installation relationship is turned over 180 degrees.

In the figure: 1. the air conditioner comprises an upper shell, 2, a lower shell, 3, a display back plate, 4, a shell back plate, 5, an air conditioning channel, 6, a display top plate, 7, a shell top plate, 8, a hollow channel, 9, a hollow storage partition plate, 10, an air conditioning notch, 11, an air conditioning baffle, 12, a linkage pull rod, 13, an adjusting handle, 14, a hollow storage bottom plate, 15, a water leakage hole, 16, a water collection port, 17, an air return channel, 18, an air conditioning fan, 19, a lamp strip, 20, a drawer type water storage tank, 21, a condensing device, 22, a heat dissipation fan, 23, a compressor, 24, a heat dissipation hole, 25, a handle, 26, an evaporator, 27, an expansion valve, 28, a condenser, 29, a cooling tower, 30, a closed hollow metal pipe, 31, a cooling fin, 32, an airflow window.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-8, a high temperature and high humidity resistant condensation and evaporation device comprises an upper shell 1 and a lower shell 2, wherein the inside of the upper shell 1 is provided with a display section, the inside of the lower shell 2 is provided with a working section, a cold air channel 5 is arranged between a display back plate 3 of the display section and a shell back plate 4 of the upper shell, a hollow channel 8 is arranged between a display top plate 6 of the display section and a shell top plate 7 of the upper shell, hollow object placing partition plates 9 are horizontally arranged on the display back plate 3 at intervals, and a hollow object placing bottom plate 14 is arranged at the bottom of the display section; the upper surface of the hollow storage bottom plate 14 is uniformly provided with water leakage holes 15; a water collecting opening 16 is formed in one corner of the lower bottom surface of the outer side of the hollow storage bottom plate 14, and the horizontal height of the corner provided with the water collecting opening 16 is lower than the horizontal heights of the other three corners, so that accumulated water can be collected conveniently; the lower surfaces of the hollow storage partition board 9 and the display top board 6 are uniformly provided with cold air notches 10 for blowing cold air; the lower surfaces of the hollow storage partition plate 9 and the display top plate 6 are both connected with a cold air separation blade 11 through a rotating shaft; the outer edges of the cold air blocking pieces 11 in each row are connected in series in a rotating mode through a linkage pull rod 12, an adjusting handle 13 is arranged at the end portion of the linkage pull rod 12, and the linkage pull rod 12 can realize that the cold air blocking pieces 11 in the same row are opened and closed to close a cold air notch 10 and adjust the cold air direction at the same time; an air return channel 17 is arranged between the upper shell 1 and the lower shell 2, a cold air suction hole 33 is formed at the joint of the front surfaces of the upper shell 1 and the lower shell 2, and the opening of the cold air suction hole 33 faces the inside of the display section; the interiors of the return air channel 17, the hollow channel 8 and the hollow storage partition plate 14 are all fixedly provided with a cold air fan 18; the cold air suction hole 33, the return air channel 17, the hollow channel 8, the hollow storage partition 14 and the cold air notch 10 are communicated with the cold air channel 5; an evaporator 26 is arranged in the cold air channel 5 and close to the return air channel 17; lamp belts 19 are arranged on the display back plate 3 which is separated by the display top plate 6, the hollow object partition plate 9 and the hollow object bottom plate 14; a drawer type water storage tank 20, a condensing device 21, two symmetrically arranged cooling fans 22, two symmetrically arranged compressors 23 and two expansion valves 27 are arranged in the lower shell 2; heat dissipation holes 24 for air to enter and exit are uniformly formed in the front and back shells of the lower shell 2; the end part of the drawer type water storage tank 20 is parallel to the front edge shell of the lower shell, a handle 25 is arranged at the end part of the drawer type water storage tank 20, and the drawer type water storage tank 20 is communicated with the water collecting opening 16 through a guide pipe; the heat radiation fan 22 is arranged between the compressor 23 and the condensing device 21; airflow windows 32 are formed in the front and rear surfaces of the condensing device 21, and the airflow windows 32 are circular windows with the diameter larger than that of the fan blades of the cooling fan 22; the condensing device 21 is composed of a condenser 28 and a cooling tower 29; the pipelines in the condenser 28 are divided into an upper layer and a lower layer which are parallel, the pipelines in the upper layer and the lower layer are arranged in an S-shaped roundabout mode, and each layer of pipelines can be respectively connected with one compressor 23; the cooling tower 29 is composed of a closed hollow metal tube 30 and a radiating fin 31; two thirds of cooling liquid is filled in the closed hollow metal pipe 30, and the upper one third of the hollow metal pipe 30 extends out of the upper surface of the condensing device 21; the pipelines in the evaporator 26 are divided into two sets which are arranged in parallel, each set of pipelines is arranged in an S-shaped roundabout manner, and the flow direction of the refrigerant in the pipelines in the evaporator is opposite to the direction of the airflow in the cold air channel so as to ensure that the evaporator adopts countercurrent heat exchange; the compressor 23, the condenser 21, the expansion valve 27, and the evaporator 26 are sequentially connected in a circulating manner by refrigerant pipes, and two independent refrigeration cycle systems are formed by the connection.

In the working state, the compressor 23 presses the high-temperature refrigerant sucked from the evaporator 26 into the condenser 28, the air flow flows in from the heat dissipation hole 24 on the front surface of the lower shell 2 under the driving of the heat dissipation fan 22, flows through the condenser 28, the air flow absorbs the heat of the refrigerant in the condenser 28 to raise the temperature, the cooled refrigerant flows through the expansion valve 27 and is pressed into the evaporator 26, the air in the display area is blown to the evaporator 26 through the return air channel 17 under the driving of the cold air fan 18, the air flow exchanges heat at the evaporator 26, the cooled cold air is sent into the cold air channel 5 and is blown out from the cold air notch 10 through the cold air fan 18, the temperature rise of the refrigerant absorbing the heat of the air is sucked into the compressor 23 again, so as to form a refrigeration cycle; the high-temperature air flow absorbing the heat of the refrigerant in the condenser 28 flows through the cooling tower 29, the cooling liquid in the cooling tower 29 absorbs the heat to vaporize, and the cooled air flow passes through the cooling fan 22, blows to the compressor 23, and finally flows out from the heat dissipation hole 24 on the back of the lower shell 2, so as to reduce the temperature of the working environment of the compressor 23.

In summary, the present invention solves the problem of low refrigeration efficiency and poor resistance to high temperature and high humidity of multi-layer open showcases by providing the cold air channel 5, the hollow channel 8, the hollow storage partition 9, the cold air notch 10, the cold air baffle 11, the linkage pull rod 12, the hollow storage bottom plate 14, the water leakage hole 15, the water collection port 16, the air return channel 17, the cold air fan 18, the drawer type water storage tank 20, the condensing unit 21, the heat dissipation fan 22, the compressor 23, the heat dissipation hole 24, the evaporator 26, the expansion valve 27, the condenser 28, the cooling tower 29, the closed hollow metal tube 30, the heat dissipation fins 31, the air flow window 32, and the cold air suction hole 33.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an anti high temperature and high humidity condensation evaporation plant which characterized in that: the hollow storage rack comprises an upper shell (1), a display back plate (3), a shell back plate (4), a display top plate (6), a shell top plate (7), a hollow storage partition plate (9), a hollow storage bottom plate (14) and a lower shell (2), wherein the interior of the upper shell (1) is arranged into a display interval, the interior of the lower shell (2) is arranged into a working interval, an air cooling channel (5) is arranged between the display back plate (3) of the display interval and the shell back plate (4) of the upper shell, a hollow channel (8) is arranged between the display top plate (6) of the display interval and the shell top plate (7) of the upper shell, the hollow storage partition plate (9) is horizontally arranged on the display back plate (3) at intervals, and the hollow storage bottom plate (; the upper surface of the hollow storage bottom plate (14) is uniformly provided with water leakage holes (15); a water collecting opening (16) is arranged below the outer side end of the hollow storage bottom plate (14), and the horizontal height of the corner provided with the water collecting opening (16) is lower than the horizontal heights of the other three corners; the lower surfaces of the hollow storage partition plate (9) and the display top plate (6) are uniformly provided with cold air notches (10) for blowing cold air out; the lower surfaces of the hollow storage partition plate (9) and the display top plate (6) are connected with cold air blocking pieces (11) through rotating shafts, the outer edges of each row of cold air blocking pieces (11) are connected in series through linkage pull rods (12) in a rotating mode, and the linkage pull rods (12) can realize that the cold air blocking pieces (11) in the same row are opened and closed to close cold air notches (10) and adjust the cold air direction; an air return channel (17) is arranged between the upper shell (1) and the lower shell (2); a cold air suction hole (33) is formed in the front connection position of the upper shell (1) and the lower shell (2), and the opening of the cold air suction hole (33) faces the inside of the display section; the interiors of the air return channel (17), the hollow channel (8) and the hollow storage partition plate (14) are all fixedly provided with a cold air fan (18); the cold air suction hole (33), the return air channel (17), the hollow channel (8), the hollow storage partition plate (14) and the cold air notch (10) are communicated with the cold air channel (5); an evaporator (26) is arranged in the cold air channel (5) and close to the return air channel (17); a drawer type water storage tank (20), a condensing device (21), two symmetrically arranged heat radiation fans (22), two symmetrically arranged compressors (23) and two expansion valves (27) are arranged in the lower shell (2); the front and back shells of the lower shell (2) are uniformly provided with heat dissipation holes (24) for air to enter and exit; the end part of the drawer type water storage tank (20) is parallel to the front edge shell of the lower shell; the drawer type water storage tank (20) is communicated with the water collecting opening (16) through a guide pipe.

2. The high temperature and high humidity condensation and evaporation resistant device according to claim 1, wherein: the heat radiation fan (22) is arranged between the compressor (23) and the condensing device (21); airflow windows (32) are formed in the front face and the rear face of the condensing device (21), and the airflow windows (32) are circular windows with the diameter larger than that of fan blades of the cooling fan (22).

3. The high temperature and high humidity condensation and evaporation resistant device according to claim 1, wherein: the condensing device (21) is composed of a condenser (28) and a cooling tower (29); the pipeline in the condenser (28) is divided into an upper layer and a lower layer which are parallel, the upper layer and the lower layer of pipelines are arranged in an S-shaped roundabout mode, and each layer of pipelines can be respectively connected with one compressor (23).

4. The high temperature and high humidity condensation and evaporation resistant device according to claim 3, wherein: the cooling tower (29) is composed of a closed hollow metal pipe (30) and a radiating fin (31); two thirds of cooling liquid is filled in the closed hollow metal pipe (30), and the upper one third of the hollow metal pipe (30) extends out of the upper surface of the condensing device (21).

5. The high temperature and high humidity condensation and evaporation resistant device according to claim 1, wherein: the pipeline inside the evaporator (26) is divided into two sets which are arranged in parallel, each set of pipeline is arranged in an S-shaped roundabout manner, and the flow direction of a refrigerant in the pipeline inside the evaporator is opposite to the direction of air flow in the cold air channel so as to ensure that the evaporator adopts countercurrent heat exchange; the compressor (23), the condensing device (21), the expansion valve (27) and the evaporator (26) are sequentially connected in a circulating manner through refrigerant pipes, and two independent refrigeration cycle systems are formed by utilizing the connection.

6. The high temperature and high humidity condensation and evaporation resistant device according to claim 1, wherein: linkage pull rod (12) tip still is equipped with adjustment handle (13), and same one row can be realized in linkage pull rod (12) air conditioning separation blade (11) switch closed air conditioning notch (10) and regulation air conditioning wind direction simultaneously.

7. The high temperature and high humidity condensation and evaporation resistant device according to claim 1, wherein: the water collecting opening (16) is funnel-shaped.

8. The high temperature and high humidity condensation and evaporation resistant device according to claim 1, wherein: lamp belts (19) are respectively arranged on the display back plate (3) which is separated by the display top plate (6), the hollow storage partition plate (9) and the hollow storage bottom plate (14).

9. The high temperature and high humidity condensation and evaporation resistant device according to claim 1, wherein: the end part of the drawer type water storage tank (20) is provided with a handle (25).